Hostname: page-component-cd9895bd7-8ctnn Total loading time: 0 Render date: 2024-12-23T14:14:45.406Z Has data issue: false hasContentIssue false

Assessment of seasonal pattern of idiopathic sudden sensorineural hearing loss: a retrospective cross-sectional study

Published online by Cambridge University Press:  20 July 2022

O Tal
Affiliation:
Department of Plastic Surgery, Galilee Medical Center affiliated with Azrieli Faculty of Medicine, Bar-Ilan University, Safed, Israel
N Ibrahim
Affiliation:
Department of Otolaryngology – Head and Neck Surgery, Galilee Medical Center affiliated with Azrieli Faculty of Medicine, Bar-Ilan University, Safed, Israel
O Ronen*
Affiliation:
Department of Otolaryngology – Head and Neck Surgery, Galilee Medical Center affiliated with Azrieli Faculty of Medicine, Bar-Ilan University, Safed, Israel
*
Author for correspondence: Dr Ohad Ronen, Department of Otolaryngology – Head and Neck Surgery, Galilee Medical Center, PO Box 21, Nahariya 2210001, Israel E-mail: [email protected]
Rights & Permissions [Opens in a new window]

Abstract

Background

A seasonal trend of patients with idiopathic sudden sensorineural hearing loss may direct research into possible aetiology.

Methods

This study reviewed data from the medical records of patients who presented from 2004 to 2019 and who were diagnosed with new-onset idiopathic sudden sensorineural hearing loss. Seasonal pattern was assessed using chi-square and Rayleigh tests, and further confirmed by Monte Carlo simulation.

Results

The study included 740 patients with a mean age of 48.3 years and a median age of 49 years. There was no statistical evidence for a difference in the distribution of sensorineural hearing loss cases for the four seasons of each year or with the cumulative data. New-onset idiopathic sudden sensorineural hearing loss cases averaged around 11 per month; there was no statistical evidence for a seasonal difference, as determined either by the Rayleigh test or with Monte Carlo simulation.

Conclusion

There was no evidence to support the claim that idiopathic sudden sensorineural hearing loss incidence displays a seasonal pattern. More research is necessary to explore potential external factors such as climate or infection.

Type
Main Article
Creative Commons
Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution and reproduction, provided the original article is properly cited.
Copyright
Copyright © The Author(s), 2022. Published by Cambridge University Press on behalf of J.L.O. (1984) LIMITED

Introduction

Idiopathic sudden-onset sensorineural hearing loss (SNHL) is a medical emergency that continues to be poorly understood despite recognition in the literature since 1944.Reference De Kleyn1 Idiopathic sudden-onset SNHL is most commonly defined as SNHL of 30 dB or greater over at least three contiguous audiometric frequencies occurring within a 72-hour period. The vast majority of cases are unilateral, and the estimated annual incidence is 20 per 100 000 persons.Reference Nosrati-Zarenoe, Arlinger and Hultcrantz2

A cause for the hearing loss is identified in only up to 10 per cent of cases, yet 50 per cent of patients will improve spontaneously.Reference Penido, Cruz, Zanoni and Inoue3 Insufficient knowledge of pathogenesis and the lack of a standard method for patient evaluation, in addition to a high spontaneous recovery rate, all complicate the study of idiopathic sudden-onset SNHL and the investigation of different treatment modalities. One possible pathogenesis is an external vector such as a virus or bacterium.Reference Chandrasekhar, Tsai Do, Schwartz, Bontempo, Faucett and Finestone4 A seasonal distribution of the disease might support such a plausible cause, as some microbial infections also have a seasonal pattern.

This study was conducted to determine whether the occurrence of idiopathic sudden-onset SNHL varies throughout the year, with attention to the seasonal pattern. We hypothesised that the distribution of new patients with idiopathic sudden-onset SNHL varies throughout the year and displays a seasonal pattern.

Materials and methods

Study design

We carried out a retrospective cross-sectional study of all patients diagnosed with new-onset idiopathic sudden-onset SNHL diagnosis admitted to our medical centre from 2004 to 2019. Data were retrieved from electronic medical records. Idiopathic sudden-onset SNHL was defined according to pure tone audiometry results as described in accepted guidelines.Reference Chandrasekhar, Tsai Do, Schwartz, Bontempo, Faucett and Finestone4

This seasonal distribution study was performed by dividing each year into four seasons: spring (March to May), summer (June to August), autumn (September to November) and winter (December to February), as in studies conducted in similar Mediterranean weather conditions.Reference Danielides, Nousia, Bartzokas, Lolis, Kateri and Skevas5 We calculated the occurrence of new cases of idiopathic sudden-onset SNHL admitted to our medical centre over periods of months, seasons and years. Patients of all ages with idiopathic sudden-onset SNHL were included.

Our exclusion criteria were patients with: inadequate data; non-idiopathic sudden-onset SNHL; concurrent intracranial neoplasms; and those with a history of Ménière's disease, previous ear procedures, chemotherapy or radiotherapy to the head or neck, intercurrent ear infection, or barotrauma to the ear.

The data collected with each sample included: date of admission, demographics (age, gender), co-morbidities, recent fever or acute febrile illness, hearing examination, and time from hearing insult to treatment.

Statistical analysis

Continuous data were presented as mean, median and range values. The two-sided chi-square test and Kruskal–Wallis test were used to examine differences in patients’ gender and age distributions across the studied years, as there was non-normality of the age variable. The seasonal pattern was examined with: the one-sample chi-square test (if expected distribution (degrees of freedom) was 4 or lower), which assesses for any deviation from uniform distribution; the circular mean, which specifically assesses for seasonality (a cyclical average); and the Rayleigh test, which examines whether there is no sample mean direction. The new-onset idiopathic sudden-onset SNHL distribution is not around a cyclical average but, rather, varies throughout the year. According to the Rayleigh test's assumption, more than 8 observations are required, but as the basic data were grouped, we further confirmed our results by the Rayleigh test and Monte Carlo simulation method based on 10 000 random cases.

The analysis was performed using the following software: IBM® SPSS® Statistics version 27.0, R Studio version 4.1.0 and Matlab version 9.11.

Ethical approval

This study protocol was reviewed and approved by the Galilee Medical Center Helsinki Committee (approval number: NHR006514). The study was granted an exemption from requiring written informed consent by the same committee.

Results

Between 2004 and 2019, 740 patients were admitted to our hospital with a primary diagnosis of idiopathic sudden-onset SNHL. All patients underwent an audiogram, were seen by an otolaryngologist and were treated according to accepted guidelines.Reference Chandrasekhar, Tsai Do, Schwartz, Bontempo, Faucett and Finestone4 The study population had a mean age of 48.3 years and a median age of 49 years; 56 per cent of the patients were male. There was no statistical evidence for a difference in gender or age between the studied years (gender, two-sided chi-square test p = 0.718; age, Kruskal–Wallis test p = 0.533) (Table 1).

Table 1. Patients’ demographics

*No significant statistical difference in gender was found between the studied years (chi-square test, two-sided p = 0.718). No significant statistical difference in age was found between the studied years (Kruskal–Wallis test, p = 0.533). SD = standard deviation

New cases of idiopathic sudden-onset SNHL throughout the investigated years were grouped into months, seasons and years. When we compared the number of new idiopathic sudden-onset SNHL cases among the years for each season separately, we did not find statistical evidence for a difference in dispersion for the four seasons (chi-square test results: winter p = 0.079, spring p = 0.114, summer p = 0.396 and autumn p = 0.085; Figure 1). There was also no statistical evidence for a difference in the numbers of new idiopathic sudden-onset SNHL cases distributed between the seasons within the studied years (Figure 1).

Fig. 1. Idiopathic sudden-onset sensorineural hearing loss (ISSNHL) occurrence divided into seasons throughout the years 2004–2019. There was no statistical evidence for a difference in dispersion of cases for the four seasons across the studied years (chi-square test results: winter p = 0.079, spring p = 0.114, summer p = 0.396 and autumn p = 0.085).

A random dispersion of idiopathic sudden-onset SNHL new cases was revealed when we combined all years together (chi-square test p = 0.398; Rayleigh test p = 0.2703; Table 2). For all years combined, the average number of new cases per season were 13.3, 11.3, 11.9 and 12.8 in the winter, spring, summer and autumn, respectively. In addition, no evidence was found for a difference in idiopathic sudden-onset SNHL new cases between months, based on the cumulative data for all studied years combined (Rayleigh test p = 0.3895; Figure 2).

Fig. 2. Cumulative monthly idiopathic sudden-onset sensorineural hearing loss (ISSNHL) occurrence in the years 2004–2019. There was no statistical evidence for a difference in distribution between months (Rayleigh test, p = 0.3895).

Table 2. Dispersal of new seasonal idiopathic sudden SNHL cases over time

SNHL = sensorineural hearing loss

The monthly distribution of new cases varied slightly within the years examined, yet there was no statistical evidence for a difference through the months as indicated by the Rayleigh test and confirmed by the Monte Carlo simulation for each separate year and for all studied years combined (Table 3).

Table 3. Dispersal of new idiopathic sudden SNHL cases over time

A chi-square test was performed when possible, and similar results to the Rayleigh test were achieved. The Monte Carlo simulation was conducted on 10 000 random cases. SNHL = sensorineural hearing loss

Discussion

In most cases of idiopathic sudden-onset SNHL, the aetiology remains idiopathic.Reference Chandrasekhar, Tsai Do, Schwartz, Bontempo, Faucett and Finestone4 Quality of life is dramatically low in those who fail to recover from idiopathic sudden-onset SNHL.Reference Harkonen, Kivekas, Rautiainen, Kotti and Vasama6 Therefore, it is of great importance to find the aetiology and improve its treatment. Because some pathogens, especially viruses, display seasonal distribution, we investigated a cohort of 740 patients over 15 years in one climate zone with Mediterranean weather conditions. We failed to demonstrate statistical evidence for uneven seasonal or monthly distribution in each year, and in the cumulative time span of months, seasons and years. Our findings do not support a seasonal external factor, such as climate or infection, as a possible aetiological factor.

Other studies have also attempted to investigate the aetiology of idiopathic sudden-onset SNHL with emphasis on seasonality. In 2002, Danielides et al.Reference Danielides, Nousia, Bartzokas, Lolis, Kateri and Skevas5 examined 82 cases of idiopathic sudden-onset SNHL investigating the seasonal distribution of idiopathic sudden-onset SNHL and evaluating the influence of meteorological parameters. The results of their study, which took place in Greece, could not prove a statistically significant effect of weather conditions on the frequency of idiopathic sudden-onset SNHL. Our medical centre is situated in proximity to Greece and shares a similar Mediterranean climate. However, our study had a larger sample size and spanned more than a decade. Our medical centre covers a population of roughly 600 000 patients along the hills and shores of the Mediterranean Sea, so the current results might preclude generalisability to other climate areas.

In 2006, Wu et al., in Taiwan, investigated the relations between monthly idiopathic sudden-onset SNHL incidence rates and weather conditions such as temperature, humidity, rainfall and so on.Reference Wu, Lin and Chao7 Like Danielides et al.,Reference Danielides, Nousia, Bartzokas, Lolis, Kateri and Skevas5 they found no statistical evidence for a link between idiopathic sudden-onset SNHL and weather conditions throughout the year. A statistically significant trend in seasonal variation was found, with the highest incidence rates occurring in autumn (August to October in Taiwan).Reference Wu, Lin and Chao7 In nearby South Korea, a large-scale study over a period of five years similarly found that most patients with idiopathic sudden-onset SNHL were diagnosed in October, with the fewest diagnosed in January.Reference Kim, Kim, Im, Kim, Song and Chae8

A study from the USA, published in 2010, using the same statistical analysis as was used in the current study, suggested that idiopathic sudden-onset SNHL incidence does not display uneven distribution throughout the year; however, they conducted their study over a period of only three years, on fewer than 100 patients.Reference Jourdy, Donatelli, Victor and Selesnick9

Viruses might be a possible aetiology for a disease that has a seasonal pattern of presentation. It was suggested that a recent Epstein–Barr virus or cytomegalovirus infection might be a cause for idiopathic sudden-onset SNHL in children.Reference Pitaro, Bechor-Fellner, Gavriel, Marom and Eviatar10 Other viruses associated with idiopathic sudden-onset SNHL are human immunosuppression virus, herpes simplex virus, varicella zoster virus and mumps.Reference Cohen, Durstenfeld and Roehm11 We did not have relevant data on patients’ viral infections; however, because some of these viral diseases have a seasonal presentation, our results do not support such an aetiology.Reference Masui, Itabashi, Ishii, Ban and Inouye12Reference Sikhosana, Kuonza and Motaze14

Study strengths

Our study was conducted on 740 patients spanning 15 years in one climate zone. The additional analysis based on seasons rather than months diminishes minor climate changes that might occur in separate months. The size of the ENT service was stable throughout the investigated period, thus precluding it as a possible confounding factor.

Study limitations

We did not have exact weather information for those weeks in which the patients were referred to the hospital, so we could not analyse whether regional climate changes played a possible aetiological role. Because of the retrospective nature of the study, we could not prove causality, and did not have any ancillary tests supporting a possible vector causing idiopathic sudden-onset SNHL that might be linked to the weather. We did not have enough data to control for confounding factors such as a recent upper respiratory infection or other infectious aetiology that preceded the idiopathic sudden-onset SNHL. Our findings are limited to seasons in the Mediterranean area and might not be generalisable to other regions worldwide.

  • Idiopathic sudden sensorineural hearing loss (SNHL) is a medical emergency with unknown aetiology

  • Seasonal distribution of the disease might support an external vector as a possible pathogenesis

  • This study investigated whether new-onset SNHL incidence follows a seasonal pattern

  • This retrospective study showed that 740 cases over 15 years were spread evenly between seasons and months

  • These findings do not provide evidence of a seasonal factor related to sudden SNHL pathogenesis in a Mediterranean-climate country

Other possible idiopathic sudden-onset SNHL aetiologies, and related systemic risk factors such as diabetes mellitus and hypertension, were not controlled for as confounding factors in the analysis because of the retrospective nature of this study.

As stated above, our medical centre covers around 600 000 people. As idiopathic sudden-onset SNHL has an estimated yearly rate of 20 per 100 000 population, we should have seen an annual rate of 120 idiopathic sudden-onset SNHL patients. However, 740 cases diagnosed in 15 years is equivalent to an annual rate of only about 50 patients. This difference might be explained by the fact that many idiopathic sudden-onset SNHL cases were not included in our cohort as they were treated and followed up in community clinics, causing a possible bias in the study.

Conclusion

We did not find enough evidence to support the claim that idiopathic sudden-onset SNHL occurrence displays a seasonal pattern. However, this study was not designed to investigate a pathogenesis for this idiopathic disease. The findings presented here do not support an external aetiology that has a seasonal pattern related to the occurrence of idiopathic sudden-onset SNHL. Further studies should explore possible aetiologies for idiopathic sudden-onset SNHL.

Acknowledgements

The authors are grateful to Mrs Orly Yakir and Rania Faris for the statistical analysis, and Mrs Tobie Kuritsky for the editorial proof. We also wish to thank Dr Samuel H Selesnick, from the Department of Otorhinolaryngology at Weill Cornell Medical College, for his assistance in analysing seasonal data.

Competing interests

None declared

Footnotes

Dr O Ronen takes responsibility for the integrity of the content of the paper

References

De Kleyn, A. Sudden complete or partial loss of function of the octavus-system in apparently normal persons. Acta Otolaryngol 1944;32:407–29CrossRefGoogle Scholar
Nosrati-Zarenoe, R, Arlinger, S, Hultcrantz, E. Idiopathic sudden sensorineural hearing loss: results drawn from the Swedish national database. Acta Otolaryngol 2007;127:1168–75CrossRefGoogle ScholarPubMed
Penido, NO, Cruz, OLM, Zanoni, A, Inoue, DP. Classification and hearing evolution of patients with sudden sensorineural hearing loss. Braz J Med Biol Res 2009;42:712–16CrossRefGoogle ScholarPubMed
Chandrasekhar, SS, Tsai Do, BS, Schwartz, SR, Bontempo, LJ, Faucett, EA, Finestone, SA et al. Clinical Practice Guideline: Sudden Hearing Loss (Update). Otolaryngol Head Neck Surg 2019;161(1 suppl):S145Google Scholar
Danielides, V, Nousia, C-S, Bartzokas, A, Lolis, CJ, Kateri, M, Skevas, A. Weather conditions and sudden sensorineural hearing loss. BMC Ear Nose Throat Disord 2002;2:2CrossRefGoogle ScholarPubMed
Harkonen, K, Kivekas, I, Rautiainen, M, Kotti, V, Vasama, J-P. Quality of life and hearing eight years after sudden sensorineural hearing loss. Laryngoscope 2017;127:927–31CrossRefGoogle ScholarPubMed
Wu, C-S, Lin, H-C, Chao, P-Z. Sudden sensorineural hearing loss: evidence from Taiwan. Audiol Neurootol 2006;11:151–6CrossRefGoogle ScholarPubMed
Kim, SH, Kim, S-J, Im, H, Kim, T-H, Song, J-J, Chae, S-W. A trend in sudden sensorineural hearing loss: data from a population-based study. Audiol Neurootol 2017;22:311–16CrossRefGoogle ScholarPubMed
Jourdy, DN, Donatelli, LA, Victor, JD, Selesnick, SH. Assessment of variation throughout the year in the incidence of idiopathic sudden sensorineural hearing loss. Otol Neurotol 2010;31:53–7CrossRefGoogle ScholarPubMed
Pitaro, J, Bechor-Fellner, A, Gavriel, H, Marom, T, Eviatar, E. Sudden sensorineural hearing loss in children: etiology, management, and outcome. Int J Pediatr Otorhinolaryngol 2016;82:34–7CrossRefGoogle ScholarPubMed
Cohen, BE, Durstenfeld, A, Roehm, PC. Viral causes of hearing loss: a review for hearing health professionals. Trends Hear 2014;18:2331216514541361Google ScholarPubMed
Masui, Y, Itabashi, Y, Ishii, A, Ban, F, Inouye, S. Detection of IgM antibody to Epstein-Barr virus, 1999-2006: analysis of data collected at a commercial diagnostic laboratory in Japan [in Japanese]. Kansenshogaku Zasshi 2007;81:707–13CrossRefGoogle Scholar
Chen, L, Liu, J, Shi, L, Song, Y, Song, Y, Gao, Y et al. Seasonal influence on TORCH infection and analysis of multi-positive samples with indirect immunofluorescence assay. J Clin Lab Anal 2019;33:e22828CrossRefGoogle ScholarPubMed
Sikhosana, ML, Kuonza, L, Motaze, NV. Epidemiology of laboratory-confirmed mumps infections in South Africa, 2012-2017: a cross-sectional study. BMC Public Health 2020;20:668CrossRefGoogle ScholarPubMed
Figure 0

Table 1. Patients’ demographics

Figure 1

Fig. 1. Idiopathic sudden-onset sensorineural hearing loss (ISSNHL) occurrence divided into seasons throughout the years 2004–2019. There was no statistical evidence for a difference in dispersion of cases for the four seasons across the studied years (chi-square test results: winter p = 0.079, spring p = 0.114, summer p = 0.396 and autumn p = 0.085).

Figure 2

Fig. 2. Cumulative monthly idiopathic sudden-onset sensorineural hearing loss (ISSNHL) occurrence in the years 2004–2019. There was no statistical evidence for a difference in distribution between months (Rayleigh test, p = 0.3895).

Figure 3

Table 2. Dispersal of new seasonal idiopathic sudden SNHL cases over time

Figure 4

Table 3. Dispersal of new idiopathic sudden SNHL cases over time